Experimental study of the influence of glass cover cooling using evaporative cooling process on the thermal performance of single basin solar still

Shivamallaiah, Manjunath M.; Reddy, S. Rama; Shrikanth, V; Shetty, Gagan; Rakesh, S. A.; John, Joby; Ahmed, Suhaib; Aftab, Afnan

doi:10.15282/jmes.14.1.2020.11.0496

Cited by 4 publications

(3 citation statements)

References 17 publications

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“…An evaporative cooler is used to cool the solar distiller's glass cover. An experimental study resulted in a 7.3% increase in efficiency, a 17.69 degrees lower cooling water temperature compared to ambient conditions, and a 3.32 times increase in distillate production, demonstrating the effectiveness of this method in enhancing overall performance (Figure 8) [68]. The experimental investigation explored the effects of shadows and sunglass evaporative cooling methods on coating as shown in Figure 9, revealing a 16.4% increase in fresh water productivity and a 3.8% boost in total efficiency when applying the half-shading technique with glass cover cooling.…”

Section: Water Flowing Over Glass Covers To Cool Them Downmentioning

confidence: 93%

Enhancing Water Purification in Solar Stills Through Incorporation of Renewable Energy Technology: An Experimental Study on the Efficiency and Cooling Mechanisms - A Review

Najaf,

Aslan

2024

IJHT

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On a worldwide basis, freshwater is becoming increasingly limited, particularly in dry and distant regions. This presents a complex problem for regions such as islands, where the transportation of water that is suitable for drinking is expensive. In order to address this dilemma, the primary focus of the 21st century ought to be on boosting water purification through the use of renewable energy technology in the desalination industry. To be more specific, the incorporation of solar energy into the business has the potential to extend the lifespan of units, reduce expenses, and reduce the positive impact on the environment. The article contains a sufficient number of studies on a variety of passive and active stills, and it offers an understanding of the effectiveness of each form of still. Vacuum tube solar stills are more efficient than others. In addition to this, it investigates several approaches to cooling the glass cover and the elements that influence the productivity of solar stills, among which are environmental and design considerations. Resolving the problem of diminishing freshwater resources and integrating solar energy for water purification.

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Section: Water Flowing Over Glass Covers To Cool Them Downmentioning

confidence: 93%

Enhancing Water Purification in Solar Stills Through Incorporation of Renewable Energy Technology: An Experimental Study on the Efficiency and Cooling Mechanisms - A Review

Najaf,

Aslan

2024

IJHT

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“…In addition, thermal insulation measures of envelop enclosure can also be taken to improve the comfort of the indoor environment. The roof can be insulated with an extruded polystyrene insulation board [28][29][30][31]. The external wall insulation technology can adopt external and internal insulation technology, and the cold bridge can be subject to certain structural treatment.…”

Section: Research On Energy-saving Design Of Passive House-amentioning

confidence: 99%

Task Offloading of Edge Computing Network and Energy Saving of Passive House for Smart City

Bian

2022

Mobile Information Systems

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With the advent of technologies such as the Internet of Things, edge computing, and 5G, a tremendous amount of structured and unstructured data is being generated from different applications in the smart city environment. In this study, the current problems to be overcome by edge computing (EC) and the basic framework of edge computing are investigated to enhance the sustainable development of the smart city. Three 4aspects of the edge computing offload technology are explored including the software-defined network (SDN) controller, offload decision, and resource allocation, and a task offloading model of an edge computing network for a smart city is designed based on data preprocessing. Moreover, the energy-saving design and analysis of passive houses are carried out with Chengdu city as an example. The results reveal that the deployment scheme is feasible. In the passive house design scheme with natural ventilation, external shading, wall heat transfer coefficient of 0.63 W/(m2 K), and water storage roof, the annual energy consumption per unit area is the lowest, 18.97 kWh/m2, and its energy-saving rate is the highest, 0.77. The findings of the study provide some research experience for increasing the efficiency of smart city edge computing and boosting the smart city’s long-term development.

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“…Efisiensi aktual dan teoritis sistem masing-masing 52,32% dan 90,88% [11]. Menggunakan metode penyemprotan air pada kaca penutup double slope menghasilkan peningkatan produktivitas 3.32 kali dan efisiensi sebesar 7.3 % di bandingkan tanpa pendingin [12]. Solar still double slope menggunakan solar still dengan kolektor pelat datar, internal reflektor pada dinding samping, sirip sirkular berongga dan nano-PCM menghasilkan peningkatan efisiensi energi sebesar 25% dan efisiensi eksergi sebesar 111% dibandingkan dengan solar still konvensional [13].…”

Section: Introductionunclassified

Pengaruh Penambahan Media Pendingin Nitrogen Pada Dinding untuk Menigkatkan Kinerja Solar Still Double Slope (Energi Dan Eksergi)

Dadang,

R. Ismail,

Suwandono

et al. 2023

flywheel

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Masyarakat di daerah kepulauan dan pesisir pantai sering mengalami kekurangan air, terutama musim kemarau. Pada daerah dimana masyarakat tinggal tersebut terdapat sumber energi dan air laut yang melimpah, terlebih pada musim kemarau. Pada kondisi ini sangat tepat menggunakan solar still untuk mengolah air laut menjadi air tawar menggunakan energi matahari. Penelitian ini bertujuan untuk membandingkan solar still double slope menggunakan pendingin nitrogen pada dinding (SSDS.WCN) dan tanpa pendingin SSDS. Penelitian dilakukan secara eksperimen, teoritis dan kajian eksergi. Solar still menggunakan pelat penyerap sirip berpori, kaca penutup double slope dan pendingin nitrogen pada dinding sebelah utara dan selatan yang di bandingkan dengan tanpa pendingin. Nitrogen pada sisi utara dan selatan menggunakan metode pembilasan (Flushing). Penelitian menghasilkan produktivitas air kondensat menggunakan pendingin nitrogen pada dinding (SSDS.WCN) secara eksperimen rata-rata sebesar 2.28 kg/10jam.m2 dan teoritis sebesar 2.15 kg/10jam.m2 lebih tinggi di bandingkan dengan tanpa pendingin (SSDS) secara eksperimen sebesar 1.98 kg/10jam.m2 dan teoritis sebesar 2.07 kg/10jam.m2. Efisiensi solar still menggunakan pendingin nitrogen pada dinding (SSDS.WCN) secara eksperimen rata-rata sebesar 37.05% dan teoritis sebesar 38.87% lebih tinggi di bandingkan dengan tanpa pendingin (SSDS) secara eksperimen sebesar 34.02% dan teoritis sebesar 35.27%. Efisiensi eksergi rata-rata menggunakan SSDS.WCN sebesar 4.78% dibandingkan dengan SSDS sebesar 4.49%. Solar still menggunakan pendingin nitrogen pada dinding dapat meningkatkan produktivitas air kondensat, efisiesnsi solar still dan efisiesnsi eksergi di bandingkan dengan tanpa pendingin.

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Experimental study of the influence of glass cover cooling using evaporative cooling process on the thermal performance of single basin solar still

Cited by 4 publications

References 17 publications

Enhancing Water Purification in Solar Stills Through Incorporation of Renewable Energy Technology: An Experimental Study on the Efficiency and Cooling Mechanisms - A Review

Enhancing Water Purification in Solar Stills Through Incorporation of Renewable Energy Technology: An Experimental Study on the Efficiency and Cooling Mechanisms - A Review

Task Offloading of Edge Computing Network and Energy Saving of Passive House for Smart City

Pengaruh Penambahan Media Pendingin Nitrogen Pada Dinding untuk Menigkatkan Kinerja Solar Still Double Slope (Energi Dan Eksergi)

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